!
119
Caution
The IR and SR areas are considered as separate data areas. If an operand has access to one
area, it doesn’t necessarily mean that the same operand will have access to the other area. The
border between the IR and SR areas can, however, be crossed for a single operand, i.e., the last
bit in the IR area may be specified for an operand that requires more than one word as long as the
SR area is also allowed for that operand.
The Flags subsection lists flags that are affected by execution of an instruction.
These flags include the following SR area flags.
Abbreviation
Name
Bit
ER
Instruction Execution Error Flag
25503
CY
Carry Flag
25504
GR
Greater Than Flag
25505
EQ
Equals Flag
25506
LE
Less Than Flag
25507
OF
Overflow Flag
25404
UF
Underflow Flag
25405
ER is the flag most commonly used for monitoring an instruction’s execution.
When ER goes ON, it indicates that an error has occurred in attempting to exe-
cute the current instruction. The Flags subsection of each instruction lists possi-
ble reasons for ER being ON. ER will turn ON if operands are not entered cor-
rectly. Instructions are not executed when ER is ON. A table of instructions and
the flags they affect is provided in Appendix C Error and Arithmetic Flag Opera-
tion.
Indirect Addressing
When the DM area is specified for an operand, an indirect address can be used.
Indirect DM addressing is specified by placing an asterisk before the DM:
∗
DM.
When an indirect DM address is specified, the designated DM word will contain
the address of the DM word that contains the data that will be used as the operand
of the instruction. If, for example,
∗
DM 0001 was designated as the first operand
and LR 00 as the second operand of MOV(21), the contents of DM 0001 was
1111, and DM 1111 contained 5555, the value 5555 would be moved to LR 00.
MOV(21)
∗
DM 0001
LR 00
Word
Content
DM 0000
4C59
DM 0001
1111
DM 0002
F35A
DM 1111
5555
DM 1113
2506
DM 1114
D541
5555 moved
to LR 00.
Indicates
DM 1111.
Indirect
address
When using indirect addressing, the address of the desired word must be in BCD
and it must specify a word within the DM area. In the above example, the content
of
∗
DM 0000 would have to be in BCD between 0000 and 1999.
Designating Constants
Although data area addresses are most often given as operands, many oper-
ands and all definers are input as constants. The available value range for a
given definer or operand depends on the particular instruction that uses it. Con-
stants must also be entered in the form required by the instruction, i.e., in BCD or
in hexadecimal.
5-4
Differentiated Instructions
Most instructions are provided in both differentiated and non-differentiated
forms. Differentiated instructions are distinguished by an @ in front of the in-
struction mnemonic.
Differentiated Instructions
Section 5-4